Control apparatus for internal combustion engine

The invention claimed is: 1. A control apparatus for an internal combustion engine that includes a variable intake cam phase mechanism of a hydraulically-driven type for changing an intake cam phase which is a phase of an intake cam for opening and closing an intake valve with respect to a crankshaft, and a variable exhaust cam phase mechanism of a hydraulically-driven type for changing an exhaust cam phase which is a phase of an exhaust cam for opening and closing an exhaust valve with respect to the crankshaft, the control apparatus controlling the intake cam phase and the exhaust cam phase via the variable intake cam phase mechanism and the variable exhaust cam phase mechanism, comprising: intake-side cleaning control means for performing intake-side cleaning control that controls the intake cam phase to be advanced such that a valve overlap period of the intake valve and the exhaust valve is increased; exhaust-side cleaning control means for performing exhaust-side cleaning control that controls the exhaust cam phase to be retarded such that the valve overlap period of the intake valve and the exhaust valve is increased; and selection inhibition means for selecting one of the intake-side cleaning control by said intake-side cleaning control means and the exhaust-side cleaning control by said exhaust-side cleaning control means so as to cause the one to be performed, and inhibiting the other thereof, according to an operating state of the engine. 2. The control apparatus according to claim 1 , wherein in the intake-side cleaning control, the intake cam phase is controlled such that the intake cam phase becomes equal to a predetermined most advanced value, the control apparatus further comprising: intake cam phase-detecting means for detecting the intake cam phase; and intake-side execution completion-determining means for determining that the intake-side cleaning control has been executed, when the intake cam phase detected during execution of the intake-side cleaning control has reached the predetermined most advanced value. 3. The control apparatus according to claim 1 , wherein in the exhaust-side cleaning control, the exhaust cam phase is controlled such that the exhaust cam phase becomes equal to a predetermined most retarded value, the control apparatus further comprising: exhaust cam phase-detecting means for detecting the exhaust cam phase; and exhaust-side execution completion-determining means for determining that the exhaust-side cleaning control has been executed, when the exhaust cam phase detected during execution of the exhaust-side cleaning control has reached the predetermined most retarded value. 4. The control apparatus according to claim 1 , wherein the intake-side cleaning control and the exhaust-side cleaning control are performed during a decelerating fuel-cut operation of the engine, the control apparatus further comprising: estimated internal EGR amount-calculating means for calculating an estimated internal EGR amount, which is an estimated value of an internal EGR amount in a cylinder of the engine, during the decelerating fuel-cut operation; and operating state control means for controlling an operating state of the engine, using the calculated estimated internal EGR amount, after termination of the decelerating fuel-cut operation. 5. The control apparatus according to claim 2 , wherein in the exhaust-side cleaning control, the exhaust cam phase is controlled such that the exhaust cam phase becomes equal to a predetermined most retarded value, the control apparatus further comprising: exhaust cam phase-detecting means for detecting the exhaust cam phase; and exhaust-side execution completion-determining means for determining that the exhaust-side cleaning control has been executed, when the exhaust cam phase detected during execution of the exhaust-side cleaning control has reached the predetermined most retarded value. 6. The control apparatus according to claim 2 , wherein the intake-side cleaning control and the exhaust-side cleaning control are performed during a decelerating fuel-cut operation of the engine, the control apparatus further comprising: estimated internal EGR amount-calculating means for calculating an estimated internal EGR amount, which is an estimated value of an internal EGR amount in a cylinder of the engine, during the decelerating fuel-cut operation; and operating state control means for controlling an operating state of the engine, using the calculated estimated internal EGR amount, after termination of the decelerating fuel-cut operation. 7. The control apparatus according to claim 3 , wherein the intake-side cleaning control and the exhaust-side cleaning control are performed during a decelerating fuel-cut operation of the engine, the control apparatus further comprising: estimated internal EGR amount-calculating means for calculating an estimated internal EGR amount, which is an estimated value of an internal EGR amount in a cylinder of the engine, during the decelerating fuel-cut operation; and operating state control means for controlling an operating state of the engine, using the calculated estimated internal EGR amount, after termination of the decelerating fuel-cut operation.